0000000000306403

AUTHOR

Bruno Pairet

showing 3 related works from this author

Crystallization and Preliminary Analysis of Crystals of the 24-Meric Hemocyanin of the Emperor Scorpion (Pandinus imperator)

2011

Hemocyanins are giant oxygen transport proteins found in the hemolymph of several invertebrate phyla. They constitute giant multimeric molecules whose size range up to that of cell organelles such as ribosomes or even small viruses. Oxygen is reversibly bound by hemocyanins at binuclear copper centers. Subunit interactions within the multisubunit hemocyanin complex lead to diverse allosteric effects such as the highest cooperativity for oxygen binding found in nature. Crystal structures of a native hemocyanin oligomer larger than a hexameric substructure have not been published until now. We report for the first time growth and preliminary analysis of crystals of the 24-meric hemocyanin (M(…

Models MolecularSciencemedicine.medical_treatmentProtein subunitBiophysicsElectronschemical and pharmacologic phenomenaCooperativityBiologyCrystallography X-RayBiochemistrycomplex mixtures570 Life sciencesArthropod ProteinsScorpionsPandinusHemolymphMacromolecular Structure AnalysismedicineAnimalsMolecular replacementProtein Structure QuaternaryBiologyMultidisciplinaryQROxygen transportProteinsComputational BiologyHemocyaninAnatomybiology.organism_classificationCrystallographyHemocyaninsMedicineProtein MultimerizationCrystallizationOxygen binding570 BiowissenschaftenResearch ArticlePLoS ONE
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Crystallization of the altitude adapted hemoglobin of guinea pig.

2009

Hemoglobin is the versatile oxygen carrier in the blood of vertebrates and a key factor for adaptation to live in high altitudes. Several structural changes are known to account for increased oxygen affinity in hemoglobin of altitude adapted animals such as llama and barheaded goose. Guinea pigs are adapted to live in high altitudes in the Andes and consequently their hemoglobin has an increased oxygen affinity. However, the structural changes responsible for the adaptation of guinea pig hemoglobin are unknown. Here we report the crystallization of guinea pig hemoglobin in the presence of 2.6 M ammonium sulfate and a preliminary analysis of the crystals. Crystals diffract up to a resolution…

Ammonium sulfateAcclimatizationAltitudeGuinea PigsIncreased oxygen affinitychemistry.chemical_elementGeneral MedicineCrystallography X-RayBiochemistryOxygenlaw.inventionPreliminary analysisGuinea pigchemistry.chemical_compoundHemoglobinsAltitudechemistryBiochemistryStructural BiologylawAnimalsHemoglobinCrystallizationCrystallizationProtein and peptide letters
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Structure of the altitude adapted hemoglobin of Guinea pig in the R2-state

2010

Background: Guinea pigs are considered to be genetically adapted to a high altitude environment based on the consistent finding of a high oxygen affinity of their blood. Methodology/Principal Findings: The crystal structure of guinea pig hemoglobin at 1.8 A u resolution suggests that the increased oxygen affinity of guinea pig hemoglobin can be explained by two factors, namely a decreased stability of the Tstate and an increased stability of the R2-state. The destabilization of the T-state can be related to the substitution of a highly conserved proline (P44) to histidine (H44) in the a-subunit, which causes a steric hindrance with H97 of the b-subunit in the switch region. The stabilizatio…

Models MolecularSteric effectsGuinea PigsBiophysicslcsh:Medicinechemistry.chemical_elementCrystallography X-RayBiochemistryOxygen570 Life sciencesGuinea pigHemoglobinsAltitudeBiophysics/Macromolecular Assemblies and MachinesAnimalsProlineProtein Structure Quaternarylcsh:ScienceHistidineMultidisciplinaryProtein StabilityAltitudelcsh:ROxygen transportAdaptation PhysiologicalBiochemistry/Molecular EvolutionBiochemistry/Macromolecular Assemblies and MachinesBiochemistrychemistryBiophysicsPhysiology/Respiratory Physiologylcsh:QHemoglobinResearch Article570 Biowissenschaften
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